KR100722613B1 - Jig for rotor assembly - Google Patents

Abstract

The rotor assembly jig 100 of the present invention has a pressing protrusion 112 for pressing the rotating shaft 163 and rotates in a direction opposite to the upper jig 110 and the pressing input for applying a pressing force to the rotating shaft 163. A support plate 130 and a support plate installed on the lower jig 120 and the lower jig 120 to support the electronic case 161 to support the rotor case 161 in a direction opposite to the pressing force of the rotation shaft 163. Resilient compression of the guide jig 140 and the guide jig 140 toward the rotor case 161 for supporting the rotor case 161 in a direction opposite to the reaction force generated in the rotor case 161 by the 130 (130). It includes a spring 150 for.

Jig, rotor, rotor case, rubber ring, support plate, spring

Description

Jig for assembling a rotor}

1 is an exploded perspective view of a rotor assembly jig according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view showing a rotor assembly jig of FIG. 1; FIG.

3 is an exploded perspective view of a conventional rotor assembly jig; And

4 is a schematic view showing the rotor assembly jig of FIG. 3.

<Explanation of symbols for main parts of drawing>

100: assembly jig 110: upper jig

111: pressure protrusion 120: lower jig

122: receiving groove 123: insertion groove

130: support plate 140: guide jig

141: through hole 142: mounting groove

150: spring 160: rotor

161: rotor case 162: rubber ring

163: axis of rotation

The present invention relates to a rotor assembly jig, and more particularly, to a rotor assembly jig which can prevent deformation of the rotor case when the rotary shaft is pressed into the rotor case.

The rotor is a component applied to a spindle motor installed in a hard disk drive or a CD-drive, for example, and is composed of a rotor case and a rotating shaft supporting the rotor case. The case is provided with a rubber ring to prevent the recording medium from slipping.

The rotor of the spindle motor was assembled by pressing a rotating shaft into the rotor case using a jig to which a pressing force is applied, and an example of such a rotor assembly jig is schematically illustrated in FIGS. 3 and 4.

3 and 4, the conventional rotor assembly jig 200 is composed of an upper jig 210, a lower jig 220 and a guide jig 240, the rotor 260 is The rotor case 261, the rubber ring 262 and the rotating shaft 263 is composed of.

The upper jig 210 is for applying a pressing force to the rotating shaft 263, and has a plate-shaped body portion 211 and a pressing protrusion 212 for pressing the rotating shaft 263, and the pressing protrusion 212 is at least partially. Is inserted into the guide jig 240 to press the rotary shaft 266 directly.

The lower jig 220 is for supporting the rotor case 261, and has a receiving body 222 for receiving the plate-shaped body portion 221 and the rotor case 261, the receiving groove 222 is the bottom The surface is stepped to fit the rotor case 261 and has an insertion groove 223 into which the holder 264 of the rotor case 261 is inserted.

The guide jig 240 is for guiding the rotary shaft 263 to be pressed into the rotor case 261 and has a through hole 241 that is open toward the holder 264 of the rotor case 261.

As shown in FIG. 4, the rotating shaft 263 is press-fitted into the rotor case 261 by pressing.

First, the rotor case 261 is seated in the receiving groove 222 of the lower jig 220, and the guide jig 240 is disposed above the rotor case 261.

Next, the rotating shaft 263 is inserted into the through hole 241 and guided toward the holder 264, and is pressed into the holder 264 by the pressing protrusion 212 of the upper jig 210. At this time, the upper jig 210 presses the rotation shaft 263 by the pressing force in the direction of the arrow A, and when the lower side of the upper jig 210 and the upper side of the lower jig 220 meet, Indentation is terminated.

However, since the rubber ring non-installation surface 265 of the rotor case 261 is not supported by the lower jig 220, the rotor case 261 moves in the pressure input direction A when the rotary shaft 263 is press-fitted. There was a problem of bending and deformation.

The present invention was devised to solve the above-mentioned problems of the prior art, and an object of the present invention is to support a rubber ring non-installation surface in a direction opposite to the pressing force of a rotating shaft using a support plate, and to counter the reaction force generated by the support plate. It is to prevent the deformation of the rotor case by pressing the rotor case in the direction.

In order to achieve the object of the present invention described above, the present invention is opposed to the reaction force generated in the rotor case by the first support member and the first support member for supporting the rotor case in a direction opposite to the pressing force of the rotary shaft It is to provide a rotor assembly jig comprising a second support member for supporting the rotor case in the direction.

At least one of the first and second support members of the present invention is characterized in that it has elasticity.

In addition, the first support member is the same material and has the same thickness as the anti-slip rubber ring of the recording medium installed in the rotor case.

In addition, the first support member is characterized in that for supporting the entire rubber ring non-installation surface of the rotor case.

In addition, the second support member is characterized in that for supporting the rotor case at a position corresponding to the first support member.

The rotor assembly jig according to the embodiment of the present invention supports the rotor case in a direction opposite to the reaction force generated in the rotor case by a support plate and a support plate for supporting the rotor case in a direction opposite to the pushing force of the rotating shaft. And a spring for elastically pressing the guide jig toward the rotor case and the guide jig.

The support plate of this embodiment is characterized by having elasticity.

In addition, the support plate is the same material and has the same thickness as the anti-slip rubber ring of the recording medium installed in the rotor case.

In addition, the support plate is characterized in that for supporting the entire rubber ring non-installation surface of the rotor case.

In addition, the guide jig is characterized in that for supporting the rotor case at a position corresponding to the support plate.

In addition, the guide jig is characterized in that a through hole for guiding the rotating shaft to the rotor case is formed.

The rotor assembly jig of the present embodiment further includes an upper jig for applying a pressing force to the rotating shaft, and the upper jig has at least a part of the pressing protrusion inserted into the through hole to press the rotating shaft.

In addition, the upper jig is characterized in that for supporting one end of the spring.

The rotor assembly jig of the present embodiment further includes a lower jig for supporting the support plate in a direction opposite to the pressing force, and the lower jig has a receiving groove accommodating the guide jig and the rotor case.

Here, the receiving groove is characterized in that it has a bottom surface on which the support plate is installed.

Hereinafter, a rotor assembly jig according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 and 2, the jig 100 for assembling the rotor according to the embodiment of the present invention is the upper jig 110, the lower jig 120, the support plate 130, the guide jig 140 and The spring 150 is included, and the rotor 160 includes a rotor case 161, a rubber ring 162, and a rotating shaft 163.

The upper jig 110 is for applying a pressure input (A) to the rotating shaft 163, and consists of a pressing body 112 for pressing the plate-shaped body portion 111 and the rotating shaft 163.

Body 111 is formed with an annular receiving groove 113 for receiving at least the upper portion of the guide jig 140, the end of the spring 150 is supported on the bottom surface of the receiving groove 113 guide jig 140 ) Is pressed into the rotor case 161. Here, the bottom surface of the receiving groove 113 is not in contact with the top surface of the guide jig 140, the guide jig 140 is preferably pressed by the spring 150 only.

The pressing protrusion 112 is formed to extend from the center of the body portion 111 toward the rotor case 161, and at least a part of the pressing protrusion 112 is inserted into the guide jig 140 to press-in the rotary shaft 163 into the rotor case 161. Let's do it. Here, the pressing protrusion 112 directly applies the pressure input of the upper jig 110 to the rotation shaft 163.

The lower jig 120 is for supporting the rotor case 161 and has a plate-shaped body portion 121 in which a receiving groove 122 is formed in the center thereof.

The receiving groove 122 accommodates the rotor case 161 therein, and the bottom surface thereof is stepped to fit the rotor case 161. In addition, an insertion groove 123 into which the holder 164 of the rotor case 161 is inserted is formed at the bottom surface of the accommodation groove 122.

In addition, the rotor case 161 seated in the receiving groove 122 is spaced apart from the bottom surface of the receiving groove 122 by the thickness of the rubber ring 162 by the non-slip rubber ring 162 of the recording medium.

The support plate 130 is for supporting the rotor case 161 in the direction B opposite to the pressing force of the rotation shaft 163, and more specifically, the entire rubber ring non-installation surface 165 of the rotor case 163. I support it. Here, the support plate 130 is made of the same material as the rubber ring 162 to have elasticity, preferably having the same thickness as the rubber ring 162.

In the present embodiment, the rubber ring non-installation surface 165 may be supported by two support plates 130 at the gaps of two portions formed between the rotor case 161 and the accommodation groove 122.

In addition, the support plate 130 may be fixed to the bottom surface of the receiving groove 122, in which case it is preferable to be adhesively bonded using a predetermined adhesive.

Here, the reaction force is generated in the direction (B) opposite to the pressing force (A) to the rotor case 161 by the support plate 130 when the rotary shaft 163 is press-fit, which is the guide jig 140 and the spring ( 150).

Guide jig 140 is for supporting the rotor case 161 in a direction (C) against the reaction force (B) generated in the rotor case 161, more specifically at a position corresponding to the support plate 130 Supporting the rotor case 161, and forms a through hole 141 in the center.

The through hole 141 is opened toward the holder 164 of the rotor case 161 to guide the rotating shaft 163 to the holder 164.

In addition, the guide jig 140 has a lower side supporting the rotor case 161 to be stepped to fit the rotor case 161 to support the front surface of the rotor case 161.

In addition, the guide jig 140 is formed with an installation groove 142 is a spring 150 is installed, the installation groove 142 is the upper jig 110 so that one end of the spring 150 is in contact with the upper jig 110. Open to the side.

The spring 150 is for elastically compressing the guide jig 140 toward the rotor case 161, and is inserted into the installation groove 142 of the guide jig 140, and the lower end of the spring 150 is an installation groove ( 142 is supported on the bottom and the top is supported on the upper jig 110.

A process of pressing the rotating shaft 163 into the rotor case 161 using the jig 100 having the above-described configuration will be described with reference to FIG. 2.

As shown in FIG. 2, the rotating shaft 163 is press-fitted into the rotor case 161 by pressing.

First, the rotor case 161 is seated in the receiving groove 122 of the lower jig 120. At this time, the holder 164 of the rotor case 161 is inserted into the insertion groove 123, the rubber of the rotor case 161 is slightly spaced apart from the bottom surface of the receiving groove 122 by the rubber ring 162 The ring non-installation surface 165 is supported by the support plate 130 attached to the lower jig 120.

Next, the guide jig 140 in which the spring 150 is installed is disposed above the rotor case 161. At this time, the through hole 141 and the holder 164 of the guide jig 140 is exactly matched, and the lower side of the guide jig 140 supports the entire rotor case 161.

Next, the rotation shaft 163 is inserted into the through hole 141 of the guide jig 140 and guided to the holder 164.

Next, the upper jig 110 is disposed above the guide jig 140, and presses the rotating shaft 163 with the pressing protrusion 112 when the pressing input A is applied to the holder 164. At this time, the upper jig 110 is in contact with the spring 150 to press the guide jig 140 in the direction of the arrow (C) is generated in the rotor case 161 by the support plate 130 and the rubber ring 162 Offset the reaction. When the lower side of the upper jig 110 and the upper side of the lower jig 120 meet each other, the press-in of the rotation shaft 163 is terminated.

While the rotor assembly jig of the present invention has been described above with reference to a preferred embodiment of the present invention, it will be apparent to those skilled in the art that modifications, changes, and various modifications can be made without departing from the spirit of the present invention.

According to the rotor assembly jig of the present invention, by supporting the rubber ring non-installation surface with a support plate, by pressing the rotor case with a guide jig with a spring installed at a position corresponding to the support plate to prevent deformation of the rotor case during the press-in of the rotating shaft can do.

Claims (15)

A first supporting member for supporting the rotor case in a direction opposite to the pressing force of the rotating shaft; And And a second support member for supporting the rotor case in a direction opposite to the reaction force generated in the rotor case by the first support member. The jig according to claim 1, wherein at least one of the first and second support members has elasticity. The jig according to claim 2, wherein the first support member is made of the same material and has the same thickness as the anti-slip rubber ring of the recording medium installed in the rotor case. The jig according to claim 3, wherein the first support member supports the entire rubber ring non-installation surface of the rotor case. The jig according to any one of claims 1 to 4, wherein the second support member supports the rotor case at a position corresponding to the first support member. A support plate for supporting the rotor case in a direction opposite to the pressing force of the rotating shaft; A guide jig for supporting the rotor case in a direction opposite to the reaction force generated in the rotor case by the support plate; And And a spring for elastically pressing the guide jig toward the rotor case. The jig according to claim 6, wherein the support plate has elasticity. The jig according to claim 7, wherein the support plate is made of the same material and has the same thickness as the non-slip rubber ring of the recording medium installed in the rotor case. The jig according to claim 8, wherein the support plate supports the entire rubber ring non-installation surface of the rotor case. The jig according to any one of claims 6 to 9, wherein the guide jig supports the rotor case at a position corresponding to the support plate. The jig according to claim 6, wherein the guide jig is formed with a through hole for guiding the rotating shaft to the rotor case. 12. The jig according to claim 11, further comprising an upper jig for applying the pressing force to the rotating shaft, wherein the upper jig has a pressing protrusion for pressing at least a portion of the upper jig to press the rotating shaft. . The jig according to claim 12, wherein the upper jig supports one end of the spring. 12. The jig according to claim 11, further comprising a lower jig for supporting the support plate in a direction opposite to the pressing force, wherein the lower jig has a receiving groove for receiving the guide jig and the rotor case. The jig according to claim 14, wherein the receiving groove has a bottom surface on which the support plate is installed.

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